Re: [Vo]:Co59 Beta decay rates on Magnetar surface
From: Roarty, Francis X * Yep, no one wants to believe significant levels of time dilation and Lorentzian contraction can occur when gas loads in the interstitial space and defects of metal lattices but it is the easiest solution to multiple anomalies. At the most recent Bay Area meetup, which I missed, the following was presented -- which involves anomalous heat from gas phase Pd-D. It sounds a lot like the design of CoolEssence (Moddel et al) except they predict real fusion. Quote: “The engine design is based around nanoparticles (of palladium) trapped in a proton conducting ceramic (zirconia). Fuel (deuterium) moves through the ceramic freely, and is taken up by the sponge-like nanoparticles. http://files.meetup.com/19011604/Curt%20Brown%20talk--Slides%20of%20BACF%20Meetup%20August%2027th.pdf
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
In case it is interesting to some I found this interesting presentation on soft Soft Gamma Repeaters and Magnetars. http://www2011.mpe.mpg.de/363-heraeus-seminar/Contributions/3Wednesday/morning/KHurley.pdf I appreciate that we are talking about very strong magnetic fields and rather specific conditions in neutron stars here but their may be some insights lurking in the data. I did find the spectra of the rather broad and familiar looking spectra from the soft gamma sources interesting but that might be pure coincidence of course. Im curious where that broad spectra comes from. If it is a bremsstrahlung origin, a relativistic effect or some other cause. here is another interesting link giving a good background: http://solomon.as.utexas.edu/magnetar.html And here is another very recent but possibly related article very bright X-ray sources that might or might not actually be related somehow. http://www.spacedaily.com/reports/Avoiding_traffic_jam_creates_impossibly_bright_lighthouse_999.html Stephen > From: stephen_coo...@hotmail.com > Date: Tue, 6 Sep 2016 13:53:43 +0200 > To: vortex-l@eskimo.com > Subject: [Vo]:Co59 Beta decay rates on Magnetar surface > > I wonder if the following linked recent paper can be interesting to some here > especially Axil and Eric? > > http://link.springer.com/article/10.1007/s10509-016-2830-0 > > It's concerning changes in beta decay rates in the presence of magnetic > fields on magnetars. > > I have so far only read the abstract but I think it could be interesting. > > Stephen
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
Hi Bob, Here is another interesting paper on Magnetars: http://cds.cern.ch/record/428499/files/9912301.pdf I suppose this one could be particularly interesting to Axil maybe. Stephen From: frobertc...@hotmail.com To: stephen_coo...@hotmail.com; vortex-l@eskimo.com Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface Date: Wed, 7 Sep 2016 16:10:04 + Revision/addition of recent message to Stephen-- Stephen— I agree that the data from the magnetars are important. It may be important in getting to a unified theory linking gravity and EM fields. The absence of spectra may even identify dark matter—hydrinos for example. Mills’s theory may see the light of day from magnetars. The data, combined with the note from the recent Pam Mosier-Boss etal paper summarizing the Pd-D work over the years for everybody—including for DOD presentation for Congress in a couple weeks—regarding super conductivity, is intriguing to say the least. Alain’s (of Paris) early note about this paper being important is right on.. The large magnetic fields should make it possible to discern spin energy states associated with various nuclear species. Their separation—differential energies—in a strong gravitational field may show how angular momentum associated with spin are linked to mass energy and hence gravity. It may be that Plank’s quanta of angular momentum (h/2pi) is noticeably greater at the surface of a magnetar. The study of such stars with different magnetic/gravitational fields will become the focus of cosmology soon, if not already the focus as you suggest—a hot topic. I continue to speculate that the coupling of spin energy to orbital spin energy states of electrons in a metal lattice is key to understanding how the LENR occurs without much normal 2-body high energy physics radiation—neutrons, gammas etc. Bob Cook Sent from Mail for Windows 10 From: Bob Cook Sent: Wednesday, September 7, 2016 7:26 AM To: Stephen Cooke; vortex-l@eskimo.com Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface Stephen— I agree that the data from the magnetars are important. It may be important in getting to a unified theory linking gravity and EM fields. The absence of spectra may even identify dark matter—hydrinos for example. Tis data combined with the note from the recent Pam Mosier-Boss paper summarizing the Pd-D work over the years for everybody—including for DOD presentation for Congress in a couple Sent from Mail for Windows 10 From: Stephen Cooke Sent: Wednesday, September 7, 2016 1:34 AM To: vortex-l@eskimo.com Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface Thank you very much for this link Bob. It looks like an interesting paper. It looks like the phenomena on the surface of magnetars is a hot topic this year. I wonder if this can be an effective data source forand analogue for conditions present in LENR? At the very least they should give some insight about the magnetic nature of physical processes involved in particle decays and interactions that may be applicable even in lower magnetic fields. Perhaps the local magnetic field in a nucleus at fm distances has impacts on nucleon stability and decay rates either directly or through resonance phenomena, perhaps at quark level. If so it would be interesting to know if there can still be significant influence say at a few hundred fm if the magnetic moment and available energy states are high. I wonder if their are any other interesting observational indicators on Magnetars it would be interesting maybe to see if the spectra can reveal the isotope ratios of elements. I suppose this might be easily possible for lighter elements and maybe due to the magnetic field from fine structure characteristics of the spectra. UV and X-Ray spectra could also be interesting especially if they can reveal something about the excitation state of the electrons in the atoms and the nucleus excitation states, as well as more macroscopic X-ray and RF radiation effects due to the plasma effects. Even though it's very different place and overall conditions than a LENR device, perhaps there are a lot of LENR physics analogues at macro scale that are applicable to LENR on micro scale that can be observed there. On 07 Sep 2016, at 06:33, Bob Cook wrote: Another free document regarding much of the same theory and data regarding reactions in high magnetic fields can be found here: http://arxiv.org/abs/arXiv:1603.01898 Note the importance of spin energy and the energy released by neutrinos; also the significant data regarding reaction parameters for mid-mass nuclei. This adds to the idea of the large magnetic fields created locally by SPP’s on metal surfaces or lattice cavities. Bob Cook Sent from Mail for Windows 10 From: Stephen Cooke Sent: Tuesday, September 6, 2016 8:10 AM To: vortex-l@eskim
Re: [Vo]:Co59 Beta decay rates on Magnetar surface
Ahh I forgot to ask.., was the earlier posting about the paper you mentioned on magnetars here in Vortex-l or on the LENR forum by the way? > On 07 Sep 2016, at 18:10, Bob Cook wrote: > > Revision/addition of recent message to Stephen-- > > Stephen— > > I agree that the data from the magnetars are important. It may be important > in getting to a unified theory linking gravity and EM fields. The absence > of spectra may even identify dark matter—hydrinos for example. Mills’s > theory may see the light of day from magnetars. > > The data, combined with the note from the recent Pam Mosier-Boss etal paper > summarizing the Pd-D work over the years for everybody—including for DOD > presentation for Congress in a couple weeks—regarding super conductivity, is > intriguing to say the least. Alain’s (of Paris) early note about this paper > being important is right on.. > > The large magnetic fields should make it possible to discern spin energy > states associated with various nuclear species. Their > separation—differential energies—in a strong gravitational field may show how > angular momentum associated with spin are linked to mass energy and hence > gravity. It may be that Plank’s quanta of angular momentum (h/2pi) is > noticeably greater at the surface of a magnetar. The study of such stars > with different magnetic/gravitational fields will become the focus of > cosmology soon, if not already the focus as you suggest—a hot topic. > > I continue to speculate that the coupling of spin energy to orbital spin > energy states of electrons in a metal lattice is key to understanding how the > LENR occurs without much normal 2-body high energy physics > radiation—neutrons, gammas etc. > > Bob Cook > > Sent from Mail for Windows 10 > > From: Bob Cook > Sent: Wednesday, September 7, 2016 7:26 AM > To: Stephen Cooke; vortex-l@eskimo.com > Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface > > Stephen— > > I agree that the data from the magnetars are important. It may be important > in getting to a unified theory linking gravity and EM fields. The absence > of spectra may even identify dark matter—hydrinos for example. > > Tis data combined with the note from the recent Pam Mosier-Boss paper > summarizing the Pd-D work over the years for everybody—including for DOD > presentation for Congress in a couple > > Sent from Mail for Windows 10 > > From: Stephen Cooke > Sent: Wednesday, September 7, 2016 1:34 AM > To: vortex-l@eskimo.com > Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface > > Thank you very much for this link Bob. > > It looks like an interesting paper. > > It looks like the phenomena on the surface of magnetars is a hot topic this > year. > > I wonder if this can be an effective data source forand analogue for > conditions present in LENR? At the very least they should give some insight > about the magnetic nature of physical processes involved in particle decays > and interactions that may be applicable even in lower magnetic fields. > > Perhaps the local magnetic field in a nucleus at fm distances has impacts on > nucleon stability and decay rates either directly or through resonance > phenomena, perhaps at quark level. > > If so it would be interesting to know if there can still be significant > influence say at a few hundred fm if the magnetic moment and available energy > states are high. > > I wonder if their are any other interesting observational indicators on > Magnetars it would be interesting maybe to see if the spectra can reveal the > isotope ratios of elements. I suppose this might be easily possible for > lighter elements and maybe due to the magnetic field from fine structure > characteristics of the spectra. UV and X-Ray spectra could also be > interesting especially if they can reveal something about the excitation > state of the electrons in the atoms and the nucleus excitation states, as > well as more macroscopic X-ray and RF radiation effects due to the plasma > effects. Even though it's very different place and overall conditions than a > LENR device, perhaps there are a lot of LENR physics analogues at macro scale > that are applicable to LENR on micro scale that can be observed there. > > > > On 07 Sep 2016, at 06:33, Bob Cook wrote: > >> Another free document regarding much of the same theory and data regarding >> reactions in high magnetic fields can be found here: >> >> http://arxiv.org/abs/arXiv:1603.01898 >> >> Note the importance of spin energy and the energy released by neutrinos; >> also the significant data regarding react
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
Revision/addition of recent message to Stephen-- Stephen— I agree that the data from the magnetars are important. It may be important in getting to a unified theory linking gravity and EM fields. The absence of spectra may even identify dark matter—hydrinos for example. Mills’s theory may see the light of day from magnetars. The data, combined with the note from the recent Pam Mosier-Boss etal paper summarizing the Pd-D work over the years for everybody—including for DOD presentation for Congress in a couple weeks—regarding super conductivity, is intriguing to say the least. Alain’s (of Paris) early note about this paper being important is right on.. The large magnetic fields should make it possible to discern spin energy states associated with various nuclear species. Their separation—differential energies—in a strong gravitational field may show how angular momentum associated with spin are linked to mass energy and hence gravity. It may be that Plank’s quanta of angular momentum (h/2pi) is noticeably greater at the surface of a magnetar. The study of such stars with different magnetic/gravitational fields will become the focus of cosmology soon, if not already the focus as you suggest—a hot topic. I continue to speculate that the coupling of spin energy to orbital spin energy states of electrons in a metal lattice is key to understanding how the LENR occurs without much normal 2-body high energy physics radiation—neutrons, gammas etc. Bob Cook Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Bob Cook<mailto:frobertc...@hotmail.com> Sent: Wednesday, September 7, 2016 7:26 AM To: Stephen Cooke<mailto:stephen_coo...@hotmail.com>; vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface Stephen— I agree that the data from the magnetars are important. It may be important in getting to a unified theory linking gravity and EM fields. The absence of spectra may even identify dark matter—hydrinos for example. Tis data combined with the note from the recent Pam Mosier-Boss paper summarizing the Pd-D work over the years for everybody—including for DOD presentation for Congress in a couple Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Stephen Cooke<mailto:stephen_coo...@hotmail.com> Sent: Wednesday, September 7, 2016 1:34 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface Thank you very much for this link Bob. It looks like an interesting paper. It looks like the phenomena on the surface of magnetars is a hot topic this year. I wonder if this can be an effective data source forand analogue for conditions present in LENR? At the very least they should give some insight about the magnetic nature of physical processes involved in particle decays and interactions that may be applicable even in lower magnetic fields. Perhaps the local magnetic field in a nucleus at fm distances has impacts on nucleon stability and decay rates either directly or through resonance phenomena, perhaps at quark level. If so it would be interesting to know if there can still be significant influence say at a few hundred fm if the magnetic moment and available energy states are high. I wonder if their are any other interesting observational indicators on Magnetars it would be interesting maybe to see if the spectra can reveal the isotope ratios of elements. I suppose this might be easily possible for lighter elements and maybe due to the magnetic field from fine structure characteristics of the spectra. UV and X-Ray spectra could also be interesting especially if they can reveal something about the excitation state of the electrons in the atoms and the nucleus excitation states, as well as more macroscopic X-ray and RF radiation effects due to the plasma effects. Even though it's very different place and overall conditions than a LENR device, perhaps there are a lot of LENR physics analogues at macro scale that are applicable to LENR on micro scale that can be observed there. On 07 Sep 2016, at 06:33, Bob Cook mailto:frobertc...@hotmail.com>> wrote: Another free document regarding much of the same theory and data regarding reactions in high magnetic fields can be found here: http://arxiv.org/abs/arXiv:1603.01898 Note the importance of spin energy and the energy released by neutrinos; also the significant data regarding reaction parameters for mid-mass nuclei. This adds to the idea of the large magnetic fields created locally by SPP’s on metal surfaces or lattice cavities. Bob Cook Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Stephen Cooke<mailto:stephen_coo...@hotmail.com> Sent: Tuesday, September 6, 2016 8:10 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
Stephen— I agree that the data from the magnetars are important. It may be important in getting to a unified theory linking gravity and EM fields. The absence of spectra may even identify dark matter—hydrinos for example. Tis data combined with the note from the recent Pam Mosier-Boss paper summarizing the Pd-D work over the years for everybody—including for DOD presentation for Congress in a couple Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Stephen Cooke<mailto:stephen_coo...@hotmail.com> Sent: Wednesday, September 7, 2016 1:34 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface Thank you very much for this link Bob. It looks like an interesting paper. It looks like the phenomena on the surface of magnetars is a hot topic this year. I wonder if this can be an effective data source forand analogue for conditions present in LENR? At the very least they should give some insight about the magnetic nature of physical processes involved in particle decays and interactions that may be applicable even in lower magnetic fields. Perhaps the local magnetic field in a nucleus at fm distances has impacts on nucleon stability and decay rates either directly or through resonance phenomena, perhaps at quark level. If so it would be interesting to know if there can still be significant influence say at a few hundred fm if the magnetic moment and available energy states are high. I wonder if their are any other interesting observational indicators on Magnetars it would be interesting maybe to see if the spectra can reveal the isotope ratios of elements. I suppose this might be easily possible for lighter elements and maybe due to the magnetic field from fine structure characteristics of the spectra. UV and X-Ray spectra could also be interesting especially if they can reveal something about the excitation state of the electrons in the atoms and the nucleus excitation states, as well as more macroscopic X-ray and RF radiation effects due to the plasma effects. Even though it's very different place and overall conditions than a LENR device, perhaps there are a lot of LENR physics analogues at macro scale that are applicable to LENR on micro scale that can be observed there. On 07 Sep 2016, at 06:33, Bob Cook mailto:frobertc...@hotmail.com>> wrote: Another free document regarding much of the same theory and data regarding reactions in high magnetic fields can be found here: http://arxiv.org/abs/arXiv:1603.01898 Note the importance of spin energy and the energy released by neutrinos; also the significant data regarding reaction parameters for mid-mass nuclei. This adds to the idea of the large magnetic fields created locally by SPP’s on metal surfaces or lattice cavities. Bob Cook Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Stephen Cooke<mailto:stephen_coo...@hotmail.com> Sent: Tuesday, September 6, 2016 8:10 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface Hi Eric You might be right and if so it will be interesting. Apart from the interesting effects on the magnetic and electric fields I suppose those high density fluctuations may couple with the soft x-ray radiation through coupling with the plasma frequency if the electron density can get sufficiently high enough to approach that of degenerate matter. I wonder if there is a way we could measure those fluctuations externally would there be apparent signature in the EMF or something? Even though this paper is looking at quite extreme conditions with regards the magnetic field the fact it affects the decay rates seems to indicate something about how that decay works in general. I know similar studies have also been performed on the decay of Neutrons in strong magnetic fields but these would be free neutrons and so would probably align easier with the external field. Has any one identified what kind of magnetic field strengths we get in side a nucleus with in a few fm of a Nucleon? And what its strength would be fort her out at a few hundred fm or more? I do appreciate this question is simplistic as I probably need to consider the wave function in detail to understand the process and the implications of all the possible spin and angular momentum states etc but I'm not up to speed there unfortunately. So this is rather more a conceptual question regarding the dipole magnetic field from a particle. Stephen From: eric.wal...@gmail.com<mailto:eric.wal...@gmail.com> Date: Tue, 6 Sep 2016 07:56:18 -0500 Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Yes, modification of decay rates is a topic of great interest to me. This is a theoreti
Re: [Vo]:Co59 Beta decay rates on Magnetar surface
Thank you very much for this link Bob. It looks like an interesting paper. It looks like the phenomena on the surface of magnetars is a hot topic this year. I wonder if this can be an effective data source forand analogue for conditions present in LENR? At the very least they should give some insight about the magnetic nature of physical processes involved in particle decays and interactions that may be applicable even in lower magnetic fields. Perhaps the local magnetic field in a nucleus at fm distances has impacts on nucleon stability and decay rates either directly or through resonance phenomena, perhaps at quark level. If so it would be interesting to know if there can still be significant influence say at a few hundred fm if the magnetic moment and available energy states are high. I wonder if their are any other interesting observational indicators on Magnetars it would be interesting maybe to see if the spectra can reveal the isotope ratios of elements. I suppose this might be easily possible for lighter elements and maybe due to the magnetic field from fine structure characteristics of the spectra. UV and X-Ray spectra could also be interesting especially if they can reveal something about the excitation state of the electrons in the atoms and the nucleus excitation states, as well as more macroscopic X-ray and RF radiation effects due to the plasma effects. Even though it's very different place and overall conditions than a LENR device, perhaps there are a lot of LENR physics analogues at macro scale that are applicable to LENR on micro scale that can be observed there. > On 07 Sep 2016, at 06:33, Bob Cook wrote: > > Another free document regarding much of the same theory and data regarding > reactions in high magnetic fields can be found here: > > http://arxiv.org/abs/arXiv:1603.01898 > > Note the importance of spin energy and the energy released by neutrinos; also > the significant data regarding reaction parameters for mid-mass nuclei. > > This adds to the idea of the large magnetic fields created locally by SPP’s > on metal surfaces or lattice cavities. > > Bob Cook > > > > Sent from Mail for Windows 10 > > From: Stephen Cooke > Sent: Tuesday, September 6, 2016 8:10 AM > To: vortex-l@eskimo.com > Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface > > Hi Eric > > You might be right and if so it will be interesting. Apart from the > interesting effects on the magnetic and electric fields I suppose those high > density fluctuations may couple with the soft x-ray radiation through > coupling with the plasma frequency if the electron density can get > sufficiently high enough to approach that of degenerate matter. > > I wonder if there is a way we could measure those fluctuations externally > would there be apparent signature in the EMF or something? > > Even though this paper is looking at quite extreme conditions with regards > the magnetic field the fact it affects the decay rates seems to indicate > something about how that decay works in general. I know similar studies have > also been performed on the decay of Neutrons in strong magnetic fields but > these would be free neutrons and so would probably align easier with the > external field. > > Has any one identified what kind of magnetic field strengths we get in side a > nucleus with in a few fm of a Nucleon? And what its strength would be fort > her out at a few hundred fm or more? > > I do appreciate this question is simplistic as I probably need to consider > the wave function in detail to understand the process and the implications of > all the possible spin and angular momentum states etc but I'm not up to speed > there unfortunately. So this is rather more a conceptual question regarding > the dipole magnetic field from a particle. > > Stephen > > From: eric.wal...@gmail.com > Date: Tue, 6 Sep 2016 07:56:18 -0500 > Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface > To: vortex-l@eskimo.com > > Yes, modification of decay rates is a topic of great interest to me. > > This is a theoretical paper, apparently working within the current > assumptions of physics. In order for most LENR observations to be explained > by induced decay, I think that one or more of those assumptions will need to > be revisited somewhat. One example: how high the electron density can get for > short periods of time in metals under nonequilibrium conditions. > > Eric > > > On Tue, Sep 6, 2016 at 6:53 AM, Stephen Cooke > wrote: > I wonder if the following linked recent paper can be interesting to some here > especially Axil and Eric? > > http://link.springer.com/article/10.1007/s10509-016-2830-0 > > It's concerning changes in beta decay rates in the presence of magnetic > fields on magnetars. > > I have so far only read the abstract but I think it could be interesting. > > Stephen >
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
Another free document regarding much of the same theory and data regarding reactions in high magnetic fields can be found here: http://arxiv.org/abs/arXiv:1603.01898 Note the importance of spin energy and the energy released by neutrinos; also the significant data regarding reaction parameters for mid-mass nuclei. This adds to the idea of the large magnetic fields created locally by SPP’s on metal surfaces or lattice cavities. Bob Cook Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10 From: Stephen Cooke<mailto:stephen_coo...@hotmail.com> Sent: Tuesday, September 6, 2016 8:10 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: RE: [Vo]:Co59 Beta decay rates on Magnetar surface Hi Eric You might be right and if so it will be interesting. Apart from the interesting effects on the magnetic and electric fields I suppose those high density fluctuations may couple with the soft x-ray radiation through coupling with the plasma frequency if the electron density can get sufficiently high enough to approach that of degenerate matter. I wonder if there is a way we could measure those fluctuations externally would there be apparent signature in the EMF or something? Even though this paper is looking at quite extreme conditions with regards the magnetic field the fact it affects the decay rates seems to indicate something about how that decay works in general. I know similar studies have also been performed on the decay of Neutrons in strong magnetic fields but these would be free neutrons and so would probably align easier with the external field. Has any one identified what kind of magnetic field strengths we get in side a nucleus with in a few fm of a Nucleon? And what its strength would be fort her out at a few hundred fm or more? I do appreciate this question is simplistic as I probably need to consider the wave function in detail to understand the process and the implications of all the possible spin and angular momentum states etc but I'm not up to speed there unfortunately. So this is rather more a conceptual question regarding the dipole magnetic field from a particle. Stephen From: eric.wal...@gmail.com Date: Tue, 6 Sep 2016 07:56:18 -0500 Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface To: vortex-l@eskimo.com Yes, modification of decay rates is a topic of great interest to me. This is a theoretical paper, apparently working within the current assumptions of physics. In order for most LENR observations to be explained by induced decay, I think that one or more of those assumptions will need to be revisited somewhat. One example: how high the electron density can get for short periods of time in metals under nonequilibrium conditions. Eric On Tue, Sep 6, 2016 at 6:53 AM, Stephen Cooke mailto:stephen_coo...@hotmail.com>> wrote: I wonder if the following linked recent paper can be interesting to some here especially Axil and Eric? http://link.springer.com/article/10.1007/s10509-016-2830-0 It's concerning changes in beta decay rates in the presence of magnetic fields on magnetars. I have so far only read the abstract but I think it could be interesting. Stephen
RE: EXTERNAL: Re: [Vo]:Co59 Beta decay rates on Magnetar surface
Yep, no wants to believe significant levels of time dilation and Lorentzian contraction can occur when gas loads in the interstitial space and defects of metal lattices but it is the easiest solution to multiple anomalies. Fran From: Eric Walker [mailto:eric.wal...@gmail.com] Sent: Tuesday, September 06, 2016 8:56 AM To: vortex-l@eskimo.com Subject: EXTERNAL: Re: [Vo]:Co59 Beta decay rates on Magnetar surface Yes, modification of decay rates is a topic of great interest to me. This is a theoretical paper, apparently working within the current assumptions of physics. In order for most LENR observations to be explained by induced decay, I think that one or more of those assumptions will need to be revisited somewhat. One example: how high the electron density can get for short periods of time in metals under nonequilibrium conditions. Eric On Tue, Sep 6, 2016 at 6:53 AM, Stephen Cooke mailto:stephen_coo...@hotmail.com>> wrote: I wonder if the following linked recent paper can be interesting to some here especially Axil and Eric? http://link.springer.com/article/10.1007/s10509-016-2830-0 It's concerning changes in beta decay rates in the presence of magnetic fields on magnetars. I have so far only read the abstract but I think it could be interesting. Stephen
RE: [Vo]:Co59 Beta decay rates on Magnetar surface
Hi Eric You might be right and if so it will be interesting. Apart from the interesting effects on the magnetic and electric fields I suppose those high density fluctuations may couple with the soft x-ray radiation through coupling with the plasma frequency if the electron density can get sufficiently high enough to approach that of degenerate matter. I wonder if there is a way we could measure those fluctuations externally would there be apparent signature in the EMF or something? Even though this paper is looking at quite extreme conditions with regards the magnetic field the fact it affects the decay rates seems to indicate something about how that decay works in general. I know similar studies have also been performed on the decay of Neutrons in strong magnetic fields but these would be free neutrons and so would probably align easier with the external field. Has any one identified what kind of magnetic field strengths we get in side a nucleus with in a few fm of a Nucleon? And what its strength would be fort her out at a few hundred fm or more? I do appreciate this question is simplistic as I probably need to consider the wave function in detail to understand the process and the implications of all the possible spin and angular momentum states etc but I'm not up to speed there unfortunately. So this is rather more a conceptual question regarding the dipole magnetic field from a particle. Stephen From: eric.wal...@gmail.com Date: Tue, 6 Sep 2016 07:56:18 -0500 Subject: Re: [Vo]:Co59 Beta decay rates on Magnetar surface To: vortex-l@eskimo.com Yes, modification of decay rates is a topic of great interest to me. This is a theoretical paper, apparently working within the current assumptions of physics. In order for most LENR observations to be explained by induced decay, I think that one or more of those assumptions will need to be revisited somewhat. One example: how high the electron density can get for short periods of time in metals under nonequilibrium conditions. Eric On Tue, Sep 6, 2016 at 6:53 AM, Stephen Cooke wrote: I wonder if the following linked recent paper can be interesting to some here especially Axil and Eric? http://link.springer.com/article/10.1007/s10509-016-2830-0 It's concerning changes in beta decay rates in the presence of magnetic fields on magnetars. I have so far only read the abstract but I think it could be interesting. Stephen
Re: [Vo]:Co59 Beta decay rates on Magnetar surface
Yes, modification of decay rates is a topic of great interest to me. This is a theoretical paper, apparently working within the current assumptions of physics. In order for most LENR observations to be explained by induced decay, I think that one or more of those assumptions will need to be revisited somewhat. One example: how high the electron density can get for short periods of time in metals under nonequilibrium conditions. Eric On Tue, Sep 6, 2016 at 6:53 AM, Stephen Cooke wrote: > I wonder if the following linked recent paper can be interesting to some > here especially Axil and Eric? > > http://link.springer.com/article/10.1007/s10509-016-2830-0 > > It's concerning changes in beta decay rates in the presence of magnetic > fields on magnetars. > > I have so far only read the abstract but I think it could be interesting. > > Stephen >
[Vo]:Co59 Beta decay rates on Magnetar surface
I wonder if the following linked recent paper can be interesting to some here especially Axil and Eric? http://link.springer.com/article/10.1007/s10509-016-2830-0 It's concerning changes in beta decay rates in the presence of magnetic fields on magnetars. I have so far only read the abstract but I think it could be interesting. Stephen